CN213228177U - Aluminium alloy wood grain transfer means - Google Patents

Abstract

The utility model relates to the technical field of aluminum product processing, in particular to an aluminum profile wood grain transfer printing device, which comprises a transfer printing box, a workpiece conveying mechanism arranged at the inlet side of the transfer printing box and a feeding and discharging mechanical arm arranged above the workpiece conveying mechanism, wherein the feeding and discharging mechanical arm comprises a workpiece clamp capable of clamping or releasing a workpiece, a lifting drive used for driving the workpiece clamp to lift and a feeding and discharging drive used for driving the lifting drive to horizontally displace; the utility model discloses improve the last unloading process of rendition processing, realized automatic unloading processing of going up, improved the production automation process, avoid rendition incasement high temperature to endanger workman's personal safety when improving production efficiency.

Description

Aluminium alloy wood grain transfer means

Technical Field

The utility model relates to an aluminum product processing technology field, concretely relates to wood grain rendition device.

Background

The wood grain transfer printing is to transfer and permeate the wood grain pattern on the transfer printing paper or the transfer printing film onto the transfer printing section rapidly by heating and pressurizing according to the high-temperature sublimation heat permeation principle.

The unloading is gone up often through the manual work to current aluminium alloy wood grain transfer means, and this unloading mode of going up is inefficient, and goes up high temperature and injure the workman easily in the unloading process transfer means.

Disclosure of Invention

The utility model aims at providing a realize the automatic aluminium alloy wood grain transfer means who goes up unloading to prior art not enough.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides an aluminium alloy wood grain transfer means, includes the rendition case, locates the work piece conveying mechanism of rendition case entry side and locates the last feeding mechanical arm of work piece conveying mechanism top, but last feeding mechanical arm is including the work piece holder of centre gripping or release work piece, be used for driving the lifting drive that work piece holder goes up and down and be used for driving the last feeding drive of lifting drive horizontal displacement.

Furthermore, the workpiece conveying mechanism is a roller conveyor, and two sides of the workpiece conveying mechanism are provided with position-adjustable limiting baffles.

Further, the workpiece conveying mechanism is provided with an in-place mechanism, and the in-place mechanism comprises an in-place cylinder vertically installed on the workpiece conveying mechanism and an in-place baffle arranged on a piston rod of the in-place cylinder.

Furthermore, a metal detection probe with an adjustable horizontal position is arranged on the in-place baffle.

Further, the workpiece clamp is a pneumatic finger.

Furthermore, the lifting drive is a lifting cylinder, and a piston rod of the lifting cylinder is connected with the workpiece clamp through an L-shaped plate.

Further, go up the unloading drive and include the horizontal slide rail that is connected and is located work piece conveying mechanism top through link and rendition case, with horizontal slide rail sliding connection and with the slider that lift drive is connected and be used for driving the gliding horizontal cylinder of slider on horizontal slide rail.

Furthermore, the transfer printing box comprises a box body, a transfer printing mechanism arranged in the box body, a vacuum mechanism used for vacuumizing the box body and a door closing mechanism used for opening and closing the box body.

Furthermore, one side of the box body close to the workpiece conveying mechanism is provided with a material opening, and the door closing mechanism comprises a door body which is hinged with the box body and can seal the material opening, and a switch air cylinder which is arranged on the box body and is used for driving the door body to open and close.

Further, transfer printing mechanism is including built-in material platform, the transfer printing board that is located material platform top of putting into of built-in heater strip and be used for driving the elevating system that transfer printing board goes up and down.

The utility model discloses following beneficial effect has:

the utility model discloses improve the last unloading process of rendition processing, realized automatic unloading processing of going up, improved the production automation process, avoid rendition incasement high temperature to endanger workman's personal safety when improving production efficiency.

Drawings

Fig. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic side view of the present invention;

FIG. 3 is a schematic sectional view of the transfer box;

in the figure: 1. a transfer box; 2. a workpiece conveying mechanism; 3. a feeding and discharging manipulator; 4. an in-place mechanism; 11. a box body; 12. a transfer mechanism; 13. a vacuum mechanism; 14. a door closing mechanism; 21. a limit baffle; 31. a workpiece holder; 32. lifting and driving; 33. driving feeding and discharging; 41. an in-place cylinder; 42. a positioning baffle plate; 43. a metal detection probe; 121. a material loading platform; 122. a transfer plate; 123. a lifting mechanism; 141. a door body; 142. switching on and off the air cylinder; 321. an L-shaped plate; 331. a connecting frame; 332. a horizontal slide rail; 333. a slider; 334. a horizontal cylinder.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and specific embodiments so as to more clearly understand the technical idea claimed in the present invention.

As shown in fig. 1-3, the utility model relates to an aluminum profile wood grain transfer device, including transfer-printing box 1, locate the work piece conveying mechanism 2 of transfer-printing box 1 entrance side and locate the last unloading manipulator 3 above work piece conveying mechanism 2, last unloading manipulator 3 is including the work piece holder 31 that can the centre gripping or release the work piece, be used for driving the lift drive 32 that work piece holder 31 goes up and down and be used for driving the last unloading drive 33 that lift drive 32 horizontal displacement.

The utility model discloses a work piece conveying mechanism 2 locates material mouth one side of rendition case 1, treats that the aluminium alloy work piece of processing carries through work piece conveying mechanism 2, when the work piece is carried to rendition case 1 one side, go up unloading manipulator 3 and send this aluminium alloy work piece into the rendition and handle, the rendition is processed the back of accomplishing, go up unloading manipulator 3 and take out the work piece in the rendition case 1 and place work piece conveying mechanism 2 in to carry the unloading by work piece conveying mechanism 2, treat that the next one treats that the processing work piece is carried to rendition case 1 one side when, go up unloading manipulator 3 and move the material operation once more.

In the feeding process, the workpiece clamp 31 clamps and fixes the workpiece on the conveying mechanism 2, then the lifting drive 32 drives the workpiece clamp 31 to ascend so that the workpiece is opposite to the inlet of the transfer box 1, then the feeding and discharging drive 33 drives the lifting drive 32 to horizontally displace until the workpiece is positioned in the transfer box 1, the workpiece clamp 31 releases the workpiece, then the feeding and discharging drive 33 drives the workpiece clamp 31 to separate from the transfer box 1, the whole feeding process is completed, and otherwise, the feeding process is the discharging process.

It should be mentioned that, when the loading and unloading manipulator 3 sends the workpiece into the transfer printing box 1, the workpiece conveying mechanism 2 stops conveying, the loading and unloading manipulator 3 takes out the workpiece after the transfer printing processing from the transfer printing box 1 and places the workpiece on the workpiece conveying mechanism 2, and the workpiece conveying mechanism 2 starts to operate and convey again, so that the workpieces are prevented from being stacked and stacked.

It is worth mentioning that the utility model discloses still be equipped with the controller for each mechanism of control moves in coordination, in order to accomplish above-mentioned operation flow.

Preferably, the workpiece conveying mechanism 2 is a roller conveyor, position-adjustable limiting baffles 21 are arranged on two sides of the roller conveyor, the baffles 21 are used for limiting two sides of a workpiece, and the workpiece can be positioned at a position where the feeding and discharging manipulator 3 can take the workpiece.

Preferably, a notch is formed in the position, close to the feeding and discharging manipulator 3, of the baffle 21, so that the feeding and discharging manipulator 3 can clamp a workpiece from one side of the baffle 21.

Preferably, the workpiece conveying mechanism 2 is provided with an in-place mechanism 4, the in-place mechanism 4 comprises an in-place cylinder 41 vertically mounted on the workpiece conveying mechanism 2 and an in-place baffle 42 arranged on a piston rod of the in-place cylinder 41, and the in-place baffle 42 is arranged between two rollers of the roller conveyor; the in-place mechanism 4 is used for limiting the conveying position of a workpiece, before the feeding and discharging manipulator 3 takes materials, the in-place cylinder 41 extends out to prevent the workpiece from being conveyed on the roller conveyor, when the workpiece reaches the feeding position, namely the edge touches the in-place baffle 42, the feeding and discharging manipulator 3 only carries out feeding operation, when the feeding and discharging manipulator 3 transfers the workpiece into the transfer box 1, the in-place cylinder 41 deflates and contracts to enable the in-place baffle 42 to descend to be lower than the top surface of a roller of the roller conveyor, and after the feeding and discharging manipulator 3 takes out the processed workpiece and is conveyed away by the roller conveyor, the in-place cylinder 41 extends out again.

Preferably, a metal detection probe 43 with an adjustable horizontal position is arranged on the in-place baffle 42, and the metal detection probe 43 is connected to the controller and used for detecting the position of the workpiece so that the in-place cylinder 41 can complete a corresponding action command.

Preferably, the metal detection probe 43 is a proximity switch.

More specifically, two metal detection probes 43 are provided, one of the metal detection probes 43 is horizontally arranged and faces the feeding direction of the workpiece conveying mechanism 2, when the workpiece touches the in-place baffle 42, the horizontally arranged metal detection probe 43 detects that the workpiece is in place, and then the controller sends an instruction to control the feeding and discharging manipulator 3 to perform feeding operation; the other metal detection probe 43 is arranged vertically upwards and is arranged on one side, away from the feeding direction of the workpiece conveying mechanism 2, of the in-place baffle, when a processed workpiece is conveyed on the workpiece conveying mechanism 2 and passes through the vertically arranged metal detection probe 43, the vertically arranged metal detection probe 43 is sequentially changed from no reaction to reaction and then to no reaction, namely, the workpiece completely passes through the position above the in-place baffle 42, and the controller sends an instruction to the in-place cylinder 42 and then stretches out to perform in-place limitation on the next workpiece.

Preferably, the workpiece clamp 31 is a pneumatic finger, two finger ends of the pneumatic finger are connected with clamping arms for clamping a workpiece, and the side of the workpiece can be rapidly clamped by using the pneumatic finger.

Preferably, the lifting driver 32 is a lifting cylinder, and a piston rod thereof is connected with the workpiece holder 31 through an L-shaped plate 321; the lifting cylinder drives the workpiece clamp 31 to ascend to align with a material port of the transfer printing box 1, so that the baffle 21 is prevented from obstructing the feeding and discharging operations while the workpiece is fed conveniently.

Preferably, the lifting cylinder is an adjustable cylinder, so that the clamping position of the workpiece by the fingers of the cylinder can be adjusted to be suitable for loading and unloading of workpieces of different types.

Preferably, the loading and unloading drive 33 includes a horizontal slide rail 332 connected to the transfer box 1 via a connecting frame 331 and located above the workpiece conveying mechanism 2, a slider 333 slidably connected to the horizontal slide rail 332 and connected to the lifting drive 32, and a horizontal cylinder 334 for driving the slider 333 to slide on the horizontal slide rail 332.

Preferably, the length direction of the horizontal slide rail 332 is perpendicular to the conveying direction of the workpiece conveying mechanism 2.

Preferably, the transfer box 1 includes a box body 11, a transfer mechanism 12 disposed in the box body 11, a vacuum mechanism 13 for evacuating the box body 11, and a door closing mechanism 14 for opening and closing the box body 11.

Preferably, a material opening is formed in one side of the box body 11 close to the workpiece conveying mechanism 2, the door closing mechanism 14 includes a door body 141 hinged to the box body 11 and capable of closing the material opening, and a switch cylinder 142 arranged on the box body 11 and used for driving the door body 141 to open and close, and a sealing strip is arranged on the door body 141; before the workpieces are loaded, the air inlet of the switch air cylinder 142 extends out, so that the door body 141 is turned and opened, and the inlet of the transfer printing box 1 is opened; after feeding is finished, the switch cylinder 142 deflates and contracts to enable the door body 141 to turn over and compress the material opening to finish door closing sealing; during blanking, the door 141 is opened again.

Preferably, the transfer mechanism 12 includes a material loading platform 121 with a heating wire inside, a transfer plate 122 located above the material loading platform 121, and an elevating mechanism 123 for driving the transfer plate 122 to ascend and descend, and the elevating mechanism 123 is preferably an air cylinder.

The utility model discloses can carry out the automation of rendition processing automatically and go up unloading, greatly improve the production automation process, avoid rendition case 1 interior high temperature to endanger workman's personal safety when improving production efficiency.

Various other changes and modifications may be made by those skilled in the art based on the above-described technical solutions and concepts, and all such changes and modifications should fall within the scope of the present invention.

Claims (10)

1. The utility model provides an aluminium alloy wood grain transfer means which characterized in that: the transfer printing machine comprises a transfer printing box (1), a workpiece conveying mechanism (2) arranged on the inlet side of the transfer printing box (1) and a feeding and discharging mechanical arm (3) arranged above the workpiece conveying mechanism (2), wherein the feeding and discharging mechanical arm (3) comprises a workpiece clamp (31) capable of clamping or releasing a workpiece, a lifting drive (32) used for driving the workpiece clamp (31) to lift and a feeding and discharging drive (33) used for driving the lifting drive (32) to horizontally displace.

2. The aluminum profile wood grain transfer device as recited in claim 1, wherein: the workpiece conveying mechanism (2) is a roller conveyor, and two sides of the roller conveyor are provided with position-adjustable limiting baffles (21).

3. The aluminum profile wood grain transfer device as recited in claim 1, wherein: the workpiece conveying mechanism (2) is provided with an in-place mechanism (4), and the in-place mechanism (4) comprises an in-place cylinder (41) vertically installed on the workpiece conveying mechanism (2) and an in-place baffle (42) arranged on a piston rod of the in-place cylinder (41).

4. The aluminum profile wood grain transfer device as recited in claim 3, wherein: and a metal detection probe (43) with adjustable horizontal position is arranged on the in-place baffle (42).

5. The aluminum profile wood grain transfer device as recited in claim 1, wherein: the workpiece clamp (31) is a pneumatic finger.

6. The aluminum profile wood grain transfer device as recited in claim 1, wherein: the lifting drive (32) is a lifting cylinder, and a piston rod of the lifting cylinder is connected with the workpiece clamp (31) through an L-shaped plate (321).

7. The aluminum profile wood grain transfer device as recited in claim 1, wherein: the feeding and discharging drive (33) comprises a horizontal sliding rail (332) which is connected with the transfer box (1) through a connecting frame (331) and is positioned above the workpiece conveying mechanism (2), a sliding block (333) which is connected with the horizontal sliding rail (332) in a sliding manner and is connected with the lifting drive (32), and a horizontal air cylinder (334) which is used for driving the sliding block (333) to slide on the horizontal sliding rail (332).

8. The aluminum profile wood grain transfer device as recited in claim 1, wherein: the transfer box (1) comprises a box body (11), a transfer mechanism (12) arranged in the box body (11), a vacuum mechanism (13) used for vacuumizing the box body (11), and a door closing mechanism (14) used for opening and closing the box body (11).

9. The aluminum profile wood grain transfer device as recited in claim 8, wherein: one side that box (11) is close to work piece conveying mechanism (2) is equipped with the material mouth, door closing mechanism (14) include with box (11) articulated and can seal door body (141) of material mouth, locate and be used for driving switch cylinder (142) of door body (141) switch on box (11).

10. The aluminum profile wood grain transfer device as recited in claim 8, wherein: the transfer printing mechanism (12) comprises a material loading platform (121) with a built-in heating wire, a transfer printing plate (122) positioned above the material loading platform (121) and a lifting mechanism (123) used for driving the transfer printing plate (122) to lift.

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